__gnu_cxx::__detail::__mini_vector(3) [centos man page]

__gnu_cxx::__detail::__mini_vector< _Tp >(3)		     Library Functions Manual		      __gnu_cxx::__detail::__mini_vector< _Tp >(3)

NAME

       __gnu_cxx::__detail::__mini_vector< _Tp > -

SYNOPSIS

   Public Types
       typedef const _Tp & const_reference
       typedef ptrdiff_t difference_type
       typedef pointer iterator
       typedef _Tp * pointer
       typedef _Tp & reference
       typedef size_t size_type
       typedef _Tp value_type

   Public Member Functions
       reference back () const	 throw ()
       iterator begin () const	 throw ()
       void clear ()  throw ()
       iterator end () const   throw ()
       void erase (iterator __pos)  throw ()
       void insert (iterator __pos, const_reference __x)
       reference operator[] (const size_type __pos) const   throw ()
       void pop_back ()  throw ()
       void push_back (const_reference __x)
       size_type size () const	 throw ()

Detailed Description
   template<typename _Tp>class __gnu_cxx::__detail::__mini_vector< _Tp >
       __mini_vector<> is a stripped down version of the full-fledged std::vector<>.

       It is to be used only for built-in types or PODs. Notable differences are:

       1. Not all accessor functions are present. 2. Used ONLY for PODs. 3. No Allocator template argument. Uses operator new() to get memory, and
       operator delete() to free it. Caveat: The dtor does NOT free the memory allocated, so this a memory-leaking vector!

       Definition at line 69 of file bitmap_allocator.h.

Author
       Generated automatically by Doxygen for libstdc++ from the source code.

libstdc++							  Tue Jun 10 2014		      __gnu_cxx::__detail::__mini_vector< _Tp >(3)

__gnu_cxx::bitmap_allocator< typename >(3)		     Library Functions Manual			__gnu_cxx::bitmap_allocator< typename >(3)

NAME

       __gnu_cxx::bitmap_allocator< typename > -

SYNOPSIS

       Inherits __gnu_cxx::free_list.

   Public Types
       typedef free_list::__mutex_type __mutex_type
       typedef const _Tp * const_pointer
       typedef const _Tp & const_reference
       typedef ptrdiff_t difference_type
       typedef _Tp * pointer
       typedef std::true_type propagate_on_container_move_assignment
       typedef _Tp & reference
       typedef size_t size_type
       typedef _Tp value_type

   Public Member Functions
       bitmap_allocator (const bitmap_allocator &) noexcept
       template<typename _Tp1 > bitmap_allocator (const bitmap_allocator< _Tp1 > &) noexcept
       pointer _M_allocate_single_object ()  throw (std::bad_alloc)
       void _M_deallocate_single_object (pointer __p)  throw ()
       pointer address (reference __r) const noexcept
       const_pointer address (const_reference __r) const noexcept
       pointer allocate (size_type __n)
       pointer allocate (size_type __n, typename bitmap_allocator< void >::const_pointer)
       template<typename _Up , typename... _Args> void construct (_Up *__p, _Args &&...__args)
       void deallocate (pointer __p, size_type __n)  throw ()
       template<typename _Up > void destroy (_Up *__p)
       size_type max_size () const noexcept

   Private Types
       typedef vector_type::iterator iterator
       typedef
	   __detail::__mini_vector
	   < value_type > vector_type"

   Private Member Functions
       void _M_clear ()
       size_t * _M_get (size_t __sz)  throw (std::bad_alloc)
       void _M_insert (size_t *__addr)	throw ()

Detailed Description
   template<typename>class __gnu_cxx::bitmap_allocator< typename >
       Bitmap Allocator, primary template.

       Definition at line 70 of file ext/alloc_traits.h.

Member Function Documentation
   template<typename > pointer __gnu_cxx::bitmap_allocator< typename >::_M_allocate_single_object ()std::bad_alloc [inline]
       Allocates memory for a single object of size sizeof(_Tp).

       Exceptions:
	   std::bad_alloc. If memory can not be allocated.

       Complexity: Worst case complexity is O(N), but that is hardly ever hit. If and when this particular case is encountered, the next few cases
       are guaranteed to have a worst case complexity of O(1)! That's why this function performs very well on average. You can consider this
       function to have a complexity referred to commonly as: Amortized Constant time.

       Definition at line 827 of file bitmap_allocator.h.

       References __gnu_cxx::__detail::__bit_allocate(), __gnu_cxx::__detail::__num_bitmaps(), and __gnu_cxx::_Bit_scan_forward().

   template<typename > void __gnu_cxx::bitmap_allocator< typename >::_M_deallocate_single_object (pointer__p) [inline]
       Deallocates memory that belongs to a single object of size sizeof(_Tp). Complexity: O(lg(N)), but the worst case is not hit often! This is
       because containers usually deallocate memory close to each other and this case is handled in O(1) time by the deallocate function.

       Definition at line 917 of file bitmap_allocator.h.

       References __gnu_cxx::__detail::__bit_free(), __gnu_cxx::__detail::__num_bitmaps(), std::__rotate(), and __gnu_cxx::free_list::_M_insert().

Author
       Generated automatically by Doxygen for libstdc++ from the source code.

libstdc++							  Tue Jun 10 2014			__gnu_cxx::bitmap_allocator< typename >(3)